| SCH9 | — | Transposon-mediated mutagenesis of SCH9, which encodes for a serine threonine kinase homologous to Akt/PKB, increases resistance to oxidants and thermal stress as well as extends chronological lifespan by 30%. SCH9 deletion increases chronological lifespan by up to threefold. Stress-resistance transcription factors Msn2/Msn4 and protein kinase Rim15 are required for this life-extension. Deletion of the mitochondrial antioxidant enzyme superoxide dismutase gene SOD2 prevents the increased chronological lifespan caused by SCH9 deletion [11292860]. Mutations that decrease the activity of the Ras/Cyr1/PKA pathway also extend longevity and increase stress resistance by activating transcription factors Msn2/Msn4 and Sod2 [12855292]. SCH9 deletion mutants exhibit more than 3-fold extension of chronological lifespan. By day 9 of medium depletion all the wild-type cells were dead while 50% sch9 mutants survived [17710147]. Deletion of SCH9 also increases resistance to heat shock and oxidative stress [11292860], and increases replicative lifespan by 18% (in DBY746) [12586694]. SCH9 deletion increases the replicative lifespan by 40% in the alpha strain [18340043] and increases mean chronological lifespan by 97 - 246% (97, 133, 154, 226, 246) in diploid cells [21447998]. Mutation or deletion of SCH9 increases resistance to oxidants and extends chronological lifespan [11292860; 16286010]. The extended lifespan of SCH9 deletion mutants is not further extended by low glucose DR and is independent of Sir2 [16293764]. Deletion of RIM15 or GIS1 reverses chronological lifespan extension associated with sch9Delta. Water restriction further increases chronological lifespan of sch9Delta [18225956]. Deletion of SCH9 results in a longer chronological lifespan [21076178]. | Budding yeast |
| SWH1 | — | SWH1 (alias OSH1) deletion mutants have an extended replicative lifespan (p=0.02) and DR does not increase the long lifespan of SWH1 deletion mutants [Xia et al. unpublished]. | Budding yeast |
| p53 | — | Overexpression of wild-type p53 during adult life has no significant effect on lifespan. Expression of dominant-negative versions of p53 in adult neurons extends lifespan by 58% in females and by 32% in males and increases resistance to genotoxic stress and resistance to oxidative stress, but not to starvation or heat stress, while not affecting egg production or physical activity.
Dominant negative p53 expression cancels out lifespan extension effect of DR, low calorie-food (5% SY). Muscle or fat body specific expression of a dominant negative form of p53 as well as globally lack of p53 decreases lifespan [16303568]. Loss of p53 activity slightly shortens the lifespan. Mutants that lack p53 survive well up to 50 days, but mortality rate increases relative to wild-type at later ages. p53 mutant animals are extremely sensitive to irradiation [12935877].
Expression of dominant-negative (DN) form of p53 in adult neurons, but not in muscle or fat body cells, extends median lifespan by 19% and maximum lifespan by 8%. The lifespan of dietary-restricted flies is not further extended by simultaneously expressing DN-DMp53 in the nervous system, indicating that a decrease in Dmp53 activity may be part of the DR lifespan-extending effect. Selective expression of DN-Dmp53 in only the 14 insulin-producing cell (IPCs) in the brain extends lifespan to the same extent as expression in all neurons and this lifespan extension is not additive with DR [17686972].
| Fruit fly |
| CG5389 | — | RNAi of complex V subunit CG5389 results in increased mean longevity under standard laboratory food conditions (3% yeast) in males. RNAi started from the development results in a mild lifespan increase in both sexes (3-11% in females and 3-8% in males). Post-developmental RNAi and silencing limited to neurons has variable effects with reduction in lifespan of up to 9% [19747824]. Under rich media conditions CG5389 knockdown throughout development and adulthood increases mean lifespan by 26% and abolished the lifespan extension by DR (started in the adulthood) in males. Suppression of CG5389 only during the adulthood either via RNAi by tub-GS or via oligomycin (a specific inhibitor of complex V) feeding prevents an increase in longevity under DR (started in the adulthood) in males [19968629]. | Fruit fly |
| cha-1 | abnormal CHoline Acetyltransferase 1 | cha-1 encodes a choline acetyltransferase which is expressed in motor [18041778] neurons and downregulated in space. Mutation or RNA interference of cha-1 extends lifespan on NGM agar covered with killed or live bacteria as well as in liquid culture medium [22768380]. cha-1(TY1652) mutation extends mean, 75%ile, and maximum lifespan by 23, 29, and 38%. The cha-1(PR1152) allele extends mean, 75%ile, and maximum lifespan by 22-49, 18-25, and 11-21%. Lifespan extension by cha-1 mutation is not abolished by daf-16 RNAi inactivation. eat-2 RNAi shortens the lifespan of cha-1 mutants. RNAi inactivation of cha-1 reduces Q35 aggregation [22768380].
cha-1 participates in determining pharyngeal pumping rate to affect food intake [6698395]. | Nematode |
| daf-2 | abnormal DAuer Formation 2 | daf-2 mutants live more than twice as long as controls. daf-2(sa189) mutation extends mean and maximum lifespan by 133 and 129%, respectively, when shifted to 20 degree Celsius. The daf-2(e1370) mutation extends mean and maximum lifespan by 32 and 119%, respectively, when shifted to 25 degree Celsius and by 110 and 145%, respectively, at 20 degree Celsius. daf-2(sa189) mutation extends mean lifespan by 67% as well as maximum lifespan [8247153]. This lifespan extension requires the activity of daf-16 [8247153]. The lifespan extension of daf-2(e1370) mutants is cancelled out by daf-16(m26) mutation. daf-2 mutants still exhibit a long lifespan after ablation of the gonad and germ cells. [8247153]. daf-2(e1370) increases mean (95-118%) and maximum (165%) lifespan [18828672]. RNAi against daf-2 extends mean and maximum lifespan by 47 and 65% [12471266]. daf-2 mutation extends lifespan of wild-type and eat-2 mutants [9789046]. Long lifespan of daf-2 insulin receptor mutation is further extended by sDR. However, daf-2 mutation is not a null mutation, therefore it is still possible that part of sDR-induced increase in lifespan might depend on insulin receptor pathway [17900900]. DR by bacterial dilution extends lifespan of daf-2 mutants [17538612]. IF does not markedly extend lifespan of daf-2 mutants [19079239]. 2% glucose reduce fractions of animals that become dauers at 22.5 degree Celsius in daf-2 mutants. Glucose almost completely suppresses lifespan extension of daf-2 ligand binding domain and tyrosine kinase mutants back to wild-type levels [19883616]. daf-2 mutation increases average lifespan by 157%. Under AL daf-2 mutation increases lifespan by 30%. bDR increases lifespan by 65%. daf-2 mutation further increases lifespan under bDR by 40%. Resistance to oxidative stress is reduced daf-2 mutation [19924292]. daf-2 RNAi increases mean lifesapn by 89% [18828672]. daf-2(m577) mutation increases mean and maximum lifespan by 33 and 29%, respectively, while daf-2(e1370) mutation increases mean and maximum lifespan by 101 and 181%, respectively [16782295]. DR from eat-2(ad465) mutation has an addative effect on lifespan of daf-2(e1370) adults, but not on lifespan of daf-2(e1368) adults [18043747]. Mutation in daf-2 in combination with mutation of daf-12 results in nearly 300% increase in lifespan [7789761]. daf-2 mutants are dauer constitutive [7219552] and exhibit reduced brood size [9504918; 9725835]. daf-2 mutants synergize with germ line ablation for lifespan extension [10360574] and also exhibit synergy with clk-1 mutation for lifespan prolongation [8638122]. All the phenotypes of daf-2 mutants are suppressed by mutation of daf-16 [8247153; 8601482; 7789761; 9725835; 9504918]. Mutation of daf-2 increases expression of sod-3 [10428762]. daf-2(e1370) increases mean lifespan by 146% [23097426].
Reducing expression of daf-2 in the adult stage alone extends lifespan [12399591]. | Nematode |
| ADE4 | ADEnine requiring 4 | ade4 mutation extends chronological lifespan, but not replicative lifespan, and is non-additive with 0.5% glucose or amino-acid DR on chronological lifespan extension. ADE4 deletion in atg16 mutants results only in a partial extension of the chronological lifespan by 0.5% glucose DR [20421943]. | Budding yeast |
| age-1 | AGEing alteration 1 | Recessive knockout mutants of age-1 have a 40-65% increase in mean lifespan and a 65-110% increase in maximum lifespan [8608934; 8700226]. age-1(mg44) zygotic null mutants have a mean (99%) and maximum (117%) lifespan extension [18828672]. Even in axenic culture lifespan of age-1 is extended up to 100%. age-1 mutation significantly extends lifespan under AL, but only slightly under sDR [16720740].
RNAi against age-1 extends lifespan by 30% [8700226; 8608934]. age-1 RNAi increases mean and maximum lifespan by 36-46% and 48-50% [12447374]. RNAi against age-1 increases mean lifespan by 83% [18828672].
age-1 mutants are dauer constitutive [8056303] and display lower brood size as well as increased embryonic lethality [9504918]. Additionally, age-1 mutants have elevated levels of superoxidase dismutase and catalase activities [8389142]. age-1 RNAi and mutation extend lifespan by 30% and 100%, respectively [8700226; 8608934]. | Nematode |
| AIM4 | Altered Inheritance rate of Mi 4 | AIM4 (alias SOY1) deletion increases chronological and replication lifespan, which is non-additive with DR. On AL mean and maximum replicative lifespan are extended by 63 and 69%, respectively. DR appears to decrease aim4-induced replication lifespan extension, indicating a negative interaction. aim4 mutation does not change DR-induced chronological lifespan extension [21584246]. | Budding yeast |
| ATG11 | AuTophaGy related 11 | ATG11 deletion extends replicative lifespan under AL and abrogates DR-lifespan extension [18690010]. | Budding yeast |
| BMH1 | Brain Modulosignalin Homologue 1 | Deleting BMH1 extends chronological lifespan by 25% and is associated with activated stress response, decreased ROS levels and increased heat-shock-element-driven transcription activity. BMH1 deletion was non-additive with the genetic DR mimetic cdc25 and tor1. Water starvation (a form of extreme DR) extends chronological lifespan of BMH1 mutant even more as it does in wild-type. BMH1 genetically interacts with DR as well as TOR- and PKA-signaling pathways to regulate lifespan. Phosphorylation of Ser238 on Bmh1 increases during chronological aging, which is delayed by DR or reduced TOR activity [19805817].
| Budding yeast |
| pka1 | cAMP-dependent protein kinase 1 | pka1 knockouts exhibits a three-fold increase in chronological lifespan with up to 187% longer maximum lifespan [16822282]. Deleting ser/thr cAMP-activated protein kinase pka1 extends chronological lifespan under normal condition, but there is no additive effect with DR [20075862]. | Fission yeast |
| CDC25 | Cell Division Cycle 25 | The CDC25-10 allele extends mean and maximum replicative lifespan by 34% and 18%, respectively, at 30 degree Celsius. cdc25-10 mutants have an extended replicative lifespan under AL. Growth on 0.5% glucose restriction does not further extend replicative lifespan of cdc25-10 mutants. CDC25 null mutant is not viable. CDC25 appears to act in the same genetic pathway as SIR2 and NPT1 and is suggested to be genetic model of DR [11000115]. | Budding yeast |
| clk-1 | CLocK (biological timing) abnormality 1 | Mutations in clk-1 slow down development and extend lifespan by 30%. Mutation of both clk-1 and daf-2 results in nearly 5-fold (500%) increase in lifespan [8638122]. Food restriction by eat-2 mutation does not further extend the long lifespan of clk-1 mutant [9789046]. DR and clk-1 mutations may extend lifespan by a similar process. DR by intermittent fasting (IF) significantly extends lifespan of clk-1 mutants, but to a lesser extent than that of wild-type [19079239]. clk-1 mutants do not respond to sDR-induced lifespan extension [19239417]. Overexpression of clk-1 shortens lifespan and is associated with increased mitochondrial activity [10202142].
Transgenic overexpression of mouse Coq7 reverts the extended lifespan of clk-1 mutants [11511092].
clk-1 encodes a enzyme participating in coenzyme Q synthesis [9020081; 11136229]. clk-1 mutants have a decreased pharyngeal pumping and may provoke volunteering DR [9789046]. Mutations in clk-1 are highly pleiotropic resulting in an average lengthing of embryonic development, post-embryonic development, and adult rhythmic behaviours such as defecation, swimming and pharyngeal pumping [7768437]. clk-1 mutants require coeznyme Q [11136229]. clk-1 protein binds the mitochondrial O(L) region and may regulate replication of mitochondrial DNA [11959146]. | Nematode |
| CYR1 | CYclic AMP Requirement 1 | The CDC35-1 allele of the adenylate cyclase CYR1 confers a 75% extension of replicative lifespan at 25 degree Celsius [11000115]. Transposon-mutagenized CYR1 increases resistance to oxidants and extends chronological lifespan by up to 90%. Stress-resistance transcription factors Msn2/Msn4 and protein kinase Rim15 are required for this lifespan extension [11292860]. CYR1 mutation is assumed to act as genetic DR mimetic [11000115]. The CDC35-1 allele of the adenylate cyclase CYR1 confers a 75% extension of replicative lifespan at 25 degree Celsius [11000115]. cyr1-1 mutation extends median chronological lifespan by 28-47% and is non-addative with lifespan extension conferred by overxpression of human MAPK1 [17662940]. | Budding yeast |
| drr-1 | Dietary Restriction Response (WT but not eat-2 lifespan increased) 1 | RNAi of drr-1 starting at L1 extends mean, 25%ile and median lifespan by 3, 8 and 8% [15998808]. drr-1 RNAi significantly extends mean lifespan of wild-type by 37 - 44%, of daf-16 mutants by 18%, and of daf-2 mutants by 14%, but does not extend significantly the lifespan of eat-2 mutants. drr-1 RNAi does not affect pumping, but similar to DR reduces and delays reproduction as well as causes a slender appearance. drr-1 mRNA is 2-fold downregulated in response to DR [16103914]. | Nematode |
| drr-2 | Dietary Restriction Response (WT but not eat-2 lifespan increased) 2 | RNA interference of drr-2 extends lifespan [15998808]. drr-2 RNAi extends lifespan of wild-type by 10-16%, but fails to significantly extend lifespan of daf-2 mutants or eat-2 mutants. drr-2 RNAi keeps a normal, well-fed appearance and normal reproduction. drr-2 mRNA expression is 2-fold reduced in eat-2 mutants [16103914]. drr-2 RNAi significantly reduces paralysis in Q35YFP transgenic animals [18331616]. drr-2 overexpression suppresses lifespan extension by eat-2 mutation and solid plate-based DR [20456299]. | Nematode |
| eat-2 | EATing: abnormal pharyngeal pumping EAT-2 | eat-2 mutations result in partial starvation by disrupting the function of the pharynx and an approximately 50% extension of lifespan. eat-2 mutants life significant longer by up to 57% [9789046]. eat-2(ad1116) mutants have an extended mean, 75%ile and maximum lifespan by 30, 35, and 24% [22810224]. eat-2 RNAi significantly reduces paralysis in Q35YFP or ABeta42 transgenic animals [18331616]. sDR further increases the long lifespan of eat-2 mutants [19239417]. eat-2 mutants live longer than wild-type at high food concentration but are short lived at lower concentrations (via bacterial dilution) [19229346]. eat-2(ad1113) mutation increases mean lifespan by 56% and is non-additive with SCNA overexpression [16782295]. Combining eat-2 mutation with bacterial deprivation DR does not result in an additive increase in lifespan [17081160;17096674]. Loss of function of eat-2 extends lifespan by 20-30%. Lifespan extension is proposed to be similar to DR. eat-2;daf-2 double mutant live longer than daf-2 single mutants [9789046]. Therefore, eat-2 mutants can synergize with daf-2 mutants, but not with clk-1 mutants, for lifespan extension. Lifespan extension conferred by eat-2 is not suppressed by daf-16 mutation [9789046]. | Nematode |
| ERG5 | ERGosterol biosynthesis 5 | Deletion of ERG5 decreases replicative lifespan by 35% in the a strain [18340043], but increases mean chronological lifespan by 26 - 116% (26, 40, 43, 62, 116) in diploid cells [21447998]. Deletion of ERG5 cancels out the replicative lifespan extension of 0.5% glucose restriction [18690010]. | Budding yeast |
| elt-3 | Erythroid-Like Transcription factor 3 | Expression of elt-3 decreases with development and aging. elt-3 RNAi extends maximum lifespan and totally cancels out the daf-2 or DR-induced (eat-2) lifespan extension [18662544]. | Nematode |
| fat-2 | FATty acid desaturase 2 | RNAi knockdown of fat-2 starting at hatching or only during the adulthood significantly extends lifespan of wild-type, but does not alter, or even shortens the lifespan of eat-2 mutants. FAT-2 is downregulated in eat-2 [22810224].
| Nematode |
| FRE6 | Ferric REductase 6 | FRE6 deletion increases mean replicative lifespan by 14% and cancels out the lifespan extending effect of DR [22912585]. | Budding yeast |
| GPA2 | G Protein Alpha subunit 2 | Deletion of GPA2 increases mean and maximum replicative lifespan by 40% and 26%, respectively [11000115]. Deletion of GPA2 extends replicative lifespan by reducing cAMP-PKA activity and provides a genetic model for DR [11000115]. | Budding yeast |
| GPR1 | G-Protein coupled Receptor 1 | Deletion of GRP1 increases mean and maximum replicative lifespan by 41% and 26%, respectively. GRP1 deletion mutants have also longer chronological lifespan. Deletion of GPR1 extends replicative lifespan by reducing cAMP-PKA activity and provides a genetically model for DR [11000115]. | Budding yeast |
| GIS1 | GIg1-2 Suppressor 1 | Deletion of GIS1 increases replicative lifespan by 25% in the alpha strain [19030232] and causes major although not complete reversion of chronological lifespan extension by 0.5% glucose restriction [18225956]. | Budding yeast |
